Added instructions for cleaning/installing individual packages
12 KiB
:octicons-stack-16: Building JELOS
JELOS is a fairly unique distribution as it is built to order and only enough of the operating system and applications are built for the purpose of booting and executing emulators and ports. Developers and others who would like to contribute to our project should read and agree to the Contributor Code of Conduct and Contributing to JELOS guides before submitting your first contribution.
1. Prep
Building JELOS requires a host with 200GB of free space for a single device, or 1TB of free space for a full world build.
!!! note "Expect your first build to take on the order of ten hours. You will need a stable internet connection, since hundreds of packages will be downloaded from their source."
Download errors often produce build failures with misleading error messages. If this happens to you, see the Troubleshooting section below.
After a clean build, all subsequent builds will go much faster (minutes) since 99% of the build work is cached.
Docker (Recommended)
!!! tip "Docker is the easiest and most reliable way to build JELOS."
You need no previous experience with Docker; you merely need to install it on your build machine. Newcomers to the project are strongly recommended to use this approach.
We recommend using Ubuntu 22.04 for the host machine, as this is well-tested and known to work. Other distributions and operating systems might also work for Docker builds, but are untested and unsupported.
sudo apt update
sudo apt install ca-certificates curl gnupg
sudo install -m 0755 -d /etc/apt/keyrings
curl -fsSL https://download.docker.com/linux/ubuntu/gpg | sudo gpg --dearmor -o /etc/apt/keyrings/docker.gpg
sudo chmod a+r /etc/apt/keyrings/docker.gpg
echo \
"deb [arch="$(dpkg --print-architecture)" signed-by=/etc/apt/keyrings/docker.gpg] https://download.docker.com/linux/ubuntu \
"$(. /etc/os-release && echo "$VERSION_CODENAME")" stable" | \
sudo tee /etc/apt/sources.list.d/docker.list > /dev/null
sudo apt update
sudo apt install docker-ce docker-ce-cli containerd.io docker-buildx-plugin docker-compose-plugin
sudo groupadd docker
sudo usermod -aG docker $USER
newgrp docker
docker run hello-world
Docker installation reference (source): Install using the apt repository and Linux post-installation steps.
The final command should produce a message indicating that Docker is properly installed. If you encounter any errors, see the reference links above.
Manual Build
Manual builds (outside of Docker) are only recommended for developers with specific needs that cannot be met by the Docker approach. The host configuration should match the Docker container as closely as possible, running Ubuntu 22.04 with all packages listed in the Dockerfile.
Virtual Machines
If you prefer to use a virtual machine for your build platform; keep in mind that results vary. There have been some reports of success with VMware Workstation (Player and Pro) and WSL and some unsuccessful attempts with VirtualBox. These reports are not definitive, but something to keep in mind if you prefer to use a VM.
2. Clone
After preparing the build machine, clone the JELOS git repository onto it.
cd ~
git clone https://github.com/JustEnoughLinuxOS/distribution.git
Selecting the Desired Branch
Once you have cloned the repo, decide whether you want to build the main branch which is more stable, or the development branch which is unstable but hosts our newest features.
Branch | Purpose |
---|---|
main | Stable JELOS sources |
dev | Unstable JELOS sources |
To check out our development branch, cd into the project directory and checkout dev
.
cd distribution
git checkout dev
Filesystem Structure
We have a simple filesystem structure adopted from parent distributions CoreELEC, LibreELEC, etc.
.
├── build.JELOS-DEVICE.ARCHITECTURE
├── config
├── distributions
├── Dockerfile
├── licenses
├── Makefile
├── packages
├── post-update
├── projects
├── release
├── scripts
├── sources
└── tools
build.JELOS-DEVICE.ARCHITECTURE
Build roots for each device and that device's architecture(s). For ARM devices JELOS builds and uses a 32bit root for several of the cores used in the 64bit distribution.
config
Contains functions utilized during the build process including architecture specific build flags, optimizations, and functions used throughout the build workflow.
distributions
Distributions contains distribution-specific build flags and parameters and splash screens.
Dockerfile
Used to build the Ubuntu container used to build JELOS. The container is hosted at https://hub.docker.com/u/justenoughlinuxos.
licenses
All of the licenses used throughout the distribution packages are hosted here. If you're adding a package that contains a license, make sure it is available in this directory before submitting the PR.
Makefile
Used to build one or more JELOS images, or to build and deploy the Ubuntu container.
packages
All of the packages used to develop and build JELOS are hosted within the packages directory. The package structure documentation is available here.
post-update
Anything that is necessary to be run on a device after an upgrade should be added here. Be sure to apply a guard to test that the change needs to be executed before execution.
projects
Hardware-specific parameters are stored in the projects folder. Anything that should not be included on every device during a world build should be isolated to the specific project or device here.
release
The output directory for all of the build images.
scripts
This directory contains all of the scripts used to fetch, extract, build, and release the distribution. Review Makefile for more details.
sources
As the distribution is being built, package source files are fetched and hosted in this directory. They will persist after a make clean
.
tools
The tools directory contains utility scripts that can be used during the development process, including a simple tool to burn an image to a usb drive or sdcard.
3. Build
Building Device Images
Building JELOS is easy. From the root of your local repository, issue one of the make
commands listed below, depending on the desired device and whether you are using Docker.
Devices | Dependency | Docker Command | Manual Command |
---|---|---|---|
AMD64 | make docker-AMD64 |
make AMD64 |
|
RK3588 | make docker-RK3588 |
make RK3588 |
|
RK3326 | make docker-RK3326 |
make RK3326 |
|
RK3566 | make docker-RK3566 |
make RK3566 |
|
RK3566-X55 | RK3566 | make docker-RK3566-X55 |
make RK3566-X55 |
S922X | make docker-S922X |
make S922X |
|
ALL DEVICES | make docker-world |
make world |
Devices that list a dependency require you to build the dependency first, since that build will be used as the root of the device you are building.
For example, the following command uses Docker to build the AMD64 image.
make docker-AMD64
Rightsized Builds
JELOS supports various build variables which alter the behavior of the distribution for specific purposes including debugging, or hosting containers. The options are defined below and are passed on the make command line. Ex. BASE_ONLY=true make docker-RK3566
.
Build Option | Default | Function |
---|---|---|
EMULATION_DEVICE | yes | Builds EmulationStation and all emulators if yes . Builds EmulationStation and NO emulators if no . |
ENABLE_32BIT | yes | Builds a 32bit root and includes it in the image. Needed for 32bit cores and applications. |
BASE_ONLY | false1 | Builds only the bare minimum packages. Includes Weston on supported devices. Does not build EmulationStation. |
CONTAINER_SUPPORT | no | Builds support for running containers on JELOS. |
Note: 1 this property will change to yes/no for consistency in a future release.
Env Variables
For development builds, you can use the following env variables to customize the image or change build time functionality. To make them globally available to the builds, add them to ${HOME}/.JELOS/options
.
Variable | Function |
---|---|
LOCAL_SSH_KEYS_FILE | Enables using ssh public keys for access without the root password. |
LOCAL_WIFI_SSID | The SSID of the network the device should connect to automatically. |
LOCAL_WIFI_KEY | The WIFI authentication key for the connection." |
SCREENSCRAPER_DEV_LOGIN | Login information for screenscraper.fr. |
GAMESDB_APIKEY | Login information for thegamesdb.net. |
CHEEVOS_DEV_LOGIN | Login information for retroachievements.org. |
CLEAN_PACKAGES | Allows specifying packages to clean during a build. |
SSH Keys
export LOCAL_SSH_KEYS_FILE=~/.ssh/jelos/authorized_keys
WiFi SSID and password
export LOCAL_WIFI_SSID=MYWIFI
export LOCAL_WIFI_KEY=secret
Screenscraper, GamesDB, and RetroAchievements
To enable Screenscraper, GamesDB, and RetroAchievements, register at each site and apply the api keys in ${HOME}/.JELOS/options
. Unsetting one of the variables will disable it in EmulationStation. This configuration is picked up by EmulationStation during the build.
# Apply for a Screenscraper API Key here: https://www.screenscraper.fr/forumsujets.php?frub=12&numpage=0
export SCREENSCRAPER_DEV_LOGIN="devid=DEVID&devpassword=DEVPASSWORD"
# Apply for a GamesDB API Key here: https://forums.thegamesdb.net/viewforum.php?f=10
export GAMESDB_APIKEY="APIKEY"
# Find your Cheevos Web API key here: https://retroachievements.org/controlpanel.php
export CHEEVOS_DEV_LOGIN="z=RETROACHIEVEMENTSUSERNAME&y=APIKEYID"
Cleaning Additional Packages
make docker-shell
CLEAN_PACKAGES="linux ppsspp-sa" make AMD64
exit
The first and last lines should be omitted if building outside of Docker.
Troubleshooting
The very first build after a fresh checkout is the hardest. Give yourself sufficient time to generate the first build and work through any failures before attempting to modify JELOS.
Download errors can produce misleading failure messages so beware of chasing red herrings. A network failure is much more likely than a bug in the makefile, given how frequently it is tested by our CI system and other devs.
Option 1: Clean the package that failed
Try cleaning the failed package and building again using the following command:
PROJECT={PROJECT} DEVICE={DEVICE} ARCH={ARCH} ./scripts/clean {PACAKGE NAME}
Use this table to determine the values you should use in the above command:
For Build | PROJECT | DEVICE | ARCH |
---|---|---|---|
AMD64 | PC | AMD64 | x86_64 |
RK3588 | Rockchip | RK3588 | aarch64 |
RK3326 | Rockchip | RK3326 | aarch64 |
RK3566 | Rockchip | RK3566 | aarch64 |
RK3566-X55 | Rockchip | RK3566-X55 | aarch64 |
S922X | Amlogic | S922X | aarch64 |
As an example; if you were buildling AMD64
and wanted to clean the mame-lr
package:
PROJECT=PC DEVICE=AMD64 ARCH=x86_64 ./scripts/clean mame-lr
After cleaning a package you can try to build/install it directly as a quick way to see if the error is resolved. Just change the script to install
or build
depending on what the package requires.
Using our example above (e.g. building for AMD64) mame-lr requires install
so you can run this command to check it directly
PROJECT=PC DEVICE=AMD64 ARCH=x86_64 ./scripts/install mame-lr
If that completes without error then running the build for your device should proceed.
Option 2: Delete the source of the package that failed
If you are still getting an error after trying the above its likely that a download failure occured for the source of the package that is failing.
In this case; manually delete the relevant package(s) from the sources
and build.JELOS-...
directories and start your build again. This will force that package to be re-downloaded from source and re-built.
Additional notes
- In most cases build failures are caused by single package failures which the above options should help resolve. Exhaust all options before using
make clean
for the entire build. That action will delete the build cache and takes hours to regenerate. - As a very last resort, delete the entire local repository and start over. This is VERY rarely needed so please focus on the above options first.